GROMMET ASSEMBLY FOR WORK SURFACES
A work surface includes a grommet and door assembly that provides for routing of utility lines through an opening in the work surface. The door pivots in first and second opposite directions about first and second axes, respectively, to first and second open positions. Magnetic connectors retain the door during pivoting about the first and second axes, and also retain the door in a closed position.
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Desks, work surfaces, and the like may be utilized in offices and other environments. Various power and/or data lines or other utility lines may need to be routed from below the work surface to a location above the work surface to support electrically-powered items, such as lamps, computer components, telephones, and the like. Known work surfaces may include an opening through the work surfaces through which the utility lines can be routed. However, known arrangements may suffer from various drawbacks.
SUMMARY OF THE INVENTIONOne aspect of the present invention is a work surface assembly including a top having upper and lower side faces. The top defines an opening extending between the upper and lower side faces, and horizontally spaced-apart pivot surfaces. The work surface assembly also includes a door having spaced-apart first and second pivot structures that engage the first and second pivot surfaces, respectively, when the door is in a closed position. The door closes off at least a substantial portion of the opening when the door is in the closed position. First and second magnetic connectors generate magnetic forces tending to retain engagement of the first and second pivot structures with the first and second pivot surfaces, respectively, whereby the door can be rotated about the first pivot structure in a first direction away from the closed position upon application of a force to the door sufficient to overcome the magnetic force of the second magnetic connector. The door can also be rotated about the second pivot structure away from the closed position upon application of a force to the door sufficient to overcome the magnetic force of the first magnetic connector. At least one edge of the door may be spaced-apart from an edge of the top adjacent the opening through the top to form a gap. Electrical cabling, data lines, or other utility lines may be routed from a utility space below the top through the gap to a location above the top to thereby interconnect electrically-powered items above the top to a power source below the top. The opening through the top may comprise an elongated rectangular opening, and the gap may comprise an elongated narrow opening.
Another aspect of the present invention is a work surface including a top having generally horizontal upper and lower side faces. The work surface also includes a structure below the top defining a utility space within the structure configured to receive electrical and/or data lines and/or electrical receptacles and other components. An opening through the top provides access to the utility space, and the opening defines first and second opposite side edges. A first pivot surface is positioned adjacent the first opposite side edge of the opening, and a second pivot surface is positioned adjacent the second opposite side edge of the opening. A cover member extends across at least a central portion of the opening when the cover member is disposed in a closed position. In the closed position, first and second opposite edge portions of the cover member are in closed positions. In the closed position, at least a portion of the first edge portion of the cover member is spaced-apart from the first side edge of the opening whereby utility lines can be routed from the utility space to a location above the top through the gap.
A first magnetic connector generates a magnetic force tending to retain the first opposite edge portion of the cover member in its closed position, and a second magnetic connector generates a magnetic force tending to retain the second opposite edge portion of the cover member in its closed position. A first retaining structure retains the cover member in a first open position wherein the cover member is rotated in a first direction relative to its closed position. The first open position provides access to the utility space through the central portion of the opening. A second retaining structure retains the cover member in a second open position, wherein the cover member is rotated in a second directions relative to its closed position. The second direction is not the same as the first direction, and the first direction may comprise a rotational direction that is opposite the first direction. The second open position also provides access to the utility space through the central portion of the opening.
These and other features, objects and advantages of the present invention will be further understood and appreciated by those skilled in the art by reference to the following specification, claims, and appended drawings.
This application is related to copending U.S. Provisional Patent Application No. 61/349,672, entitled WORKWALL SYSTEM, the entire contents of which are incorporated herein by reference.
For purposes of description herein, the terms “upper,” “lower,” “right,” “left,” “rear,” “front,” “vertical,” “horizontal,” and derivatives thereof shall relate to the invention as oriented in
With reference to
Support structure 4 forms a utility space 6 below the work surface top 2. The utility space 6 provides for routing and/or storage of utility lines, such as electrical cables 7 and 8, that connect to an electrically-powered device 9, a display screen 10, or other electrically-powered devices. The utility space 6 may also provide for routing of data lines (not shown). The utility space 6 may be formed by a box-like support structure 4, or the utility space 6 may be formed by a utility trough or other suitable structures positioned below the work surface top 2.
An opening 20 (see also
Referring again to
Door 15A is supported by a central support 45 and an end support 46, and door 15B is supported by central support 45 and end support 47. End support 46 is a mirror image of end support 47, and support 46 is therefore not described in detail herein. With reference to
Referring again to
Grommet/door assembly 18 may include an optional T-slot 77 that extends parallel to gap 22. T-slot 77 may have substantially the same internal shape and configuration as known T-slots. For example, T-slot 77 may be substantially the same as a SOTO™ rail available from Steelcase, Inc. Various shelves, trays, lights, and other accessories may be mounted to the work surface utilizing T-shaped slot 77. As discussed above, housing 25 may comprise a one-piece polymer structure. However, if housing 25 includes an optional T-slot 77, housing 25 may be made of metal or other material having sufficient structural strength to support accessories mounted to T-slot 77. Alternately, the portion of housing 25 forming T-slot 77 may be made of a metal material, and the other portions of housing 25 may be made of a polymer material. If electrically powered accessories are mounted to T-shaped slot 77, such accessories will typically be located adjacent T-shaped slot 77 above gap 22. Because inner surface 76 of wall 36 of housing 25 is vertical in the region adjacent gap 22, cables 7 or other utility lines can be routed vertically through gap 22 to the accessory units located above and adjacent gap 22. In contrast, electrically powered accessories such as display screen 10 (
In use, when doors 15A and 15B are in the closed position (
Door 15B can be rotated to a second open position B (
With further reference to
With further reference to
With further reference to
With further reference to
Referring again to
In use, door 125 can be moved to a first open position “A3” by applying an upward force on edge portion 128 that is sufficient to overcome the magnetic attraction force F2 and move edge portion 128 upwardly. As edge 128 moves upwardly, door 125 rotates about edge or corner 146 formed by side surface 143 of groove or channel 133 and horizontal upper surface 149. As door 125 rotates about edge or corner 146, edge portion 127 of door 125 moves downwardly within channel 133. The magnetic force F1 acting on edge portion 127 generates a moment about corner 146 tending to move door 125 from the closed position to the first open position A3. As door 125 rotates toward first open position A3, the magnetic force F2 is reduced, and magnetic force F1 increases.
If magnetic force F 1 is sufficiently large, it will cause door 125 to move from a partially open position to the first open position A3 without application of additional force to door 125 by a user. For example, magnets 131, 132, 135, and 136 can be selected to provide sufficiently large forces F1 and F2 to cause door 125 to open if door 125 is initially moved by a user to an intermediate position of, for example, 10° or 20°. As door 125 moves from the closed position to the first open position A3, edge portion 127 of door 125 moves downwardly within slot or channel 133 toward magnet 135 until cylindrical outer surface 129 of edge portion 127 contacts lower end surface 137 of channel or slot 133. The magnetic force F1 retains door 125 in the first open position A3, with the upper surface of door 126 in contact with the side surface 144 of channel 133. Door 125 can be moved from the first open position A3 to the closed position by applying an inwardly directed force to edge portion 128 of door 125, thereby rotating door 125 in a direction opposite the arrow “R”. Application of a closing force to edge portion 128 of door 125 causes cylindrical outer surface 129 of edge portion 127 to slide alongside surface 144 of channel 133, while lower surface 148 of door 125 simultaneously slides along corner 146 of support 126. Thus, edge portion 127 of door 125 rotates and translates as door 125 is moved from the first open position A3 to the closed position.
Door 125 may be moved to a second open position “B3” from a closed position in the same manner as just described with respect to moving door 125 to the first open position A3. To move door 125 to the second open position B3, a user initially applies an upward force to edge portion 127. Door 125 can also be moved from second open position B3 to the closed position by applying a horizontal/inward force to edge portion 127. Forces F 1 and F2 are equal or approximately equal, such that the forces F1 and F2 tend to retain door 125 in the closed position. Cylindrical outer surfaces 129 and 130 of edge portions 127 and 128, respectively, of door 125 are preferably spaced-apart from the housing 25C to form gaps 150 and 151 for routing utility lines from below work surface top 2 to a position above work surface top 2. However, edge portions 127 and 128 may be positioned directly adjacent the side walls of housing 25C to form a single gap for routing of utility lines or to provide an arrangement that does not include a gap. Housing 25C may include a pair of T-slots 77. However, the T-slots 77 are optional, and housing 25C may be configured without T-slots 77.
With reference to
With further reference to
It will be understood that the various versions or embodiments of the doors described above in connection with
The various grommet/door assemblies described above may also be utilized in a storage unit. For example, a power block could be positioned at the back of a storage unit (e.g., behind the drawers or shelves), and the grommet/door assembly could be positioned to provide access to the power block to plug in electrical equipment at a location that is away from a primary worksurface.
Also, the pivotable/removable doors and magnetic retainers could be utilized in a vertical orientation. For example, the pivotable/removable doors and grommets could be utilized to cover a horizontally-extending raceway in a partition panel. Raceways of this type may be positioned at a worksurface height, and may include an internal space or channel that extends horizontally to accommodate horizontal routing of power and data lines or other utility lines. A multi-outlet receptacle unit, power block, or other connectors may be positioned in the raceway, and the doors may be utilized to selectively close off the outwardly-facing open side of the raceway of the partition panel. When configured in this way, the supports (e.g., supports 45-47) are positioned with the door support surfaces (e.g., surface 62,
It will become apparent to those skilled in the art that various modifications to the preferred embodiment of the invention as described herein can be made without departing from the spirit or scope of the invention as defined by the appended claims.
Claims
1. A work surface comprising:
- a top having upper and lower side faces, the top defining an opening extending between the upper and lower side faces, and first and second horizontally spaced-apart pivot surfaces;
- a door including spaced-apart first and second pivot structures that engage the first and second pivot surfaces, respectively, when the door is in a closed position, and wherein the door closes off at least a substantial portion of the opening when it is in the closed position;
- first and second magnetic connectors that generate magnetic forces tending to retain engagement of the first and second pivot structures with the first and second pivot surfaces, respectively, whereby the door can be rotated about the first pivot structure in a first direction away from the closed position upon application of a force to the door sufficient to overcome the magnetic force of the second magnetic connector, and the door can be rotated about the second pivot structure away from the closed position upon application of a force to the door sufficient to overcome the magnetic force of the first magnetic connector.
2. The work surface of claim 1, wherein:
- the first pivot structure and the first pivot surface together define a horizontal first pivot axis about which the door rotates when the first pivot structure is engaged with the first pivot surface.
3. The work surface of claim 1, wherein:
- the door is movable to first and second open positions wherein the door is rotated in first and second directions, respectively, relative to the closed position; and including first and second retaining surfaces that retain the door in the first and second open positions.
4. The work surface of claim 3, wherein:
- the first and second pivot structures comprise first and second pins comprising a ferromagnetic material, and the pivot surfaces comprise upwardly-opening first and second grooves that receive the first and second metal pins, respectively, and including:
- magnets positioned adjacent the first and second grooves to releasably retain the pins in the grooves.
5. The work surface of claim 4, wherein:
- the door comprises a plate-like member having a generally rectangular perimeter and an upper surface that is disposed substantially flush with the upper side face of the top.
6. The work surface of claim 5, wherein:
- the perimeter of the door includes spaced-apart first and second opposite side edges; and
- the first and second pins are positioned inwardly relative to the first and second opposite side edges.
7. The work surface of claim 6, wherein:
- the top includes a first edge portion extending along the opening, and wherein the first opposite side edge of the door is spaced-apart from the first edge of the top to form a gap whereby electrical lines can be routed through the gap.
8. The work surface of claim 7, wherein:
- at least a portion of the gap has a dimension of at least about ⅜ inch.
9. The work surface of claim 8, wherein:
- the first edge portion and the first perimeter portion are substantially linear.
10. The work surface of claim 9, wherein:
- the first edge portion comprises an angled surface that faces upwardly and inwardly toward the door.
11. The work surface of claim 10, wherein:
- the angled surface is substantially planar.
12. The work surface of claim 10, wherein:
- the gap comprises a first gap; and
- the top includes a second edge portion extending along an opposite side of the opening relative to the first edge portion, and wherein the second edge portion includes a vertical surface that is horizontally spaced-apart from the second opposite side edge of the door at least about ⅜ inch.
13. The work surface of claim 1, wherein:
- the door includes first and second opposite side edges and an upper surface, and wherein at least one of the first and second opposite side edges includes a cylindrical surface portion defining the first pivot structure; and
- wherein the first pivot surface comprises a stationary, concave cylindrical surface in sliding contact with the cylindrical surface portion of the door as the door is pivoted from a horizontal position to a vertical position.
14. The work surface of claim 1, wherein:
- the first magnetic connector generates a force tending to pivot the door about the first pivot structure in a first direction toward an open position away from the closed position, and the second magnetic connector generates a force tending to retain the door in the closed position when the door is in the closed position.
15. The work surface of claim 14, wherein:
- the top includes retaining surfaces that retain the door in the open position.
16. The work surface of claim 15, wherein:
- the door pivots and translates as it moves from the closed position to the open position.
17. The work surface of claim 16, wherein:
- the door initially pivots as it begins to move from the closed position to the open position and translates linearly immediately prior to reaching the open position.
18. The work surface of claim 17, wherein:
- the retaining surfaces comprise first and second surfaces that face one another and define a space therebetween that receives a portion of the door when the door is in the open position.
19. The work surface of claim 18, wherein:
- the retaining surfaces comprise side walls of a first channel adjacent a first end of the opening wherein the first channel opens sidewardly toward the opening;
- the retaining surfaces further comprising a second channel adjacent a second end of the opening, the second channel opening sidewardly toward the opening; and
- wherein the door defines a generally quadrilateral perimeter with first and second corner portions that are disposed in the first and second channels when the door is in the open position.
20. The work surface of claim 19, wherein:
- the first and second channels define a lower portion; and
- wherein the top includes magnets disposed adjacent the lower ends of the first and second channels that generate a magnetic force tending to pull the first and second corner portions of the door downwardly towards the lower ends of the channels.
21. The work surface of claim 20, wherein:
- the first and second channels extend linearly.
22. The work surface of claim 21, wherein:
- the first and second channels extend non-vertically such that the door is retained in a non-vertical upright orientation when the door is in the open position.
23. The work surface of claim 1, wherein:
- the first pivot surface comprises an upwardly-opening notch that is generally V-shaped with a first notch surface that is vertical and a second notch surface that faces upwardly and sidewardly; and
- wherein the door defines a first side edge that is received in the upwardly-opening notch when the door is in a first open position, and wherein the door is rotated in a first direction relative to the closed position as the door moves from the closed position to the first open position.
24. The work surface of claim 23, wherein:
- the second surface is curved to define a convex second surface portion.
25. The work surface of claim 24, wherein:
- the second pivot surface comprises a second notch that is a mirror image of the first notch; and
- the door defines a second side edge that is opposite the first side edge, the second side edge being received in the second notch when the door is rotated from the closed position in a second direction that is opposite the first direction to a second open position.
26. A work surface, comprising:
- a top having upper and lower opposite side faces;
- a structure below the top defining a utility space within the structure that is configured to receive utility lines therein;
- an opening through the top that provides access to the utility space, the opening defining first and second opposite side edges;
- a first pivot surface positioned adjacent the first opposite side edge of the opening;
- a second pivot surface positioned adjacent the second opposite side edge of the opening;
- a cover member extending across at least a central portion of the opening when the cover member is disposed in a closed position, and wherein first and second opposite edge portions of the cover member are in closed positions when the cover member is in its closed position, and wherein at least a portion of the first edge portion of the cover member is spaced-apart from the first side edge of the opening when the cover member is in the closed position to define at least one gap to permit routing of utility lines from the utility space through the gap to a location above the top;
- a first magnetic connector generating a magnetic force tending to retain the first opposite edge portion of the cover member in its closed position;
- a second magnetic connector generating a magnetic force tending to retain the second opposite edge portion of the cover member in its closed position;
- a first retaining structure configured to retain the cover member in a first open position wherein the cover member is rotated in a first direction relative to its closed position, the first open position providing access to the utility space through the central portion of the opening; and
- a second retaining structure configured to retain the cover member in a second open position wherein the cover member is rotated in a second direction relative to its closed position, wherein the second direction is not the same as the first direction, and wherein the second open position provides access to the utility space through the central portion of the opening.
27. The work surface of claim 26, wherein:
- the gap has a dimension of at least about ⅜ inch.
28. The work surface of claim 26, wherein:
- the first and second retaining structures comprise oppositely facing stop surfaces that contact lower surfaces of the cover member when the cover member is in the first and second open positions.
29. The work surface of claim 28, wherein:
- the oppositely facing stop surfaces are substantially planar, and face downwardly and sidewardly.
30. The work surface of claim 26, wherein:
- the cover member has a perimeter that is generally quadrilateral with four corners;
- the first magnetic connector comprising a first pair of magnets positioned adjacent a first pair of the corners when the cover member is in the closed position; and
- the second magnetic connector comprising a second pair of magnets positioned adjacent a second pair of the corners when the cover member is in the closed position.
31. The work surface of claim 30, wherein:
- the first and second pivot surfaces comprise upwardly-opening grooves; and
- the cover member includes first and second metal pins that rotatably engage the upwardly-opening grooves.
Type: Application
Filed: May 26, 2011
Publication Date: Mar 14, 2013
Patent Grant number: 8925469
Applicant: STEELCASE INC. (Grand Rapids, MI)
Inventors: William B. Bennie (Rockford, MI), Brett R. Kincaid (Ada, MI), Duck Young Kong (Grand Rapids, MI), James L. Rozema (Byron Center, MI)
Application Number: 13/699,936
International Classification: A47B 13/08 (20060101); H02G 3/14 (20060101); H02G 3/38 (20060101); A47B 21/00 (20060101);